Two functions necessary for opening and closing the back door are built into one unit! Two-stage torque limiter.
The "2-stage torque limiter" is a product developed for the actuators of electric back doors in automobiles. It integrates two necessary functions (damper and safety protection mechanism) into one unit for opening and closing the back door. During opening and closing, the damper torque (0.2Nm) continuously slips, ensuring stable operation of the back door. In the event of overload, the torque limiter of the safety protection mechanism (4.0Nm) slips to prevent damage to the drive unit and motor. 【Features】 - Designed for actuators of electric back doors in automobiles - Damper and safety protection mechanism integrated into one unit - Ensures stable operation of the back door - Prevents damage to the drive unit and motor in case of overload - Achieves a slip torque tolerance of ±10% for the damper mechanism - Incorporates a torque limiter for the safety protection mechanism with a size of φ26mm in outer diameter and 18mm in width, rated at 4.0Nm *For more details, please refer to the related link page or feel free to contact us.
Inquire About This Product
basic information
【Spline Specifications (Excerpt)】 ■ Tooth Profile: ISO4156 ■ Module: 0.25 ■ Number of Teeth: 22 ■ Pressure Angle: 45deg. ■ Variation Coefficient: 0 *For more details, please refer to the related link page or feel free to contact us.
Price range
Delivery Time
Applications/Examples of results
【Usage】 ■Automobiles (Dampers for rear doors) *For more details, please refer to the related link page or feel free to contact us.
Company information
Precision mechanism components are rarely seen by the human eye, but they are widely used as important functional parts in various devices, including office automation equipment, ticket vending machines, and gaming machines. Among them, the "one-way clutch," "torque limiter," and "reverse input cutoff clutch" are products that leverage the tribology technology, which is a core technology of the components division, contributing to the "miniaturization," "energy saving," and "simple design" of devices.